# ----------------------------------------------------------------------------
# pyglet
# Copyright (c) 2006-2008 Alex Holkner
# Copyright (c) 2008-2020 pyglet contributors
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
#
#  * Redistributions of source code must retain the above copyright
#    notice, this list of conditions and the following disclaimer.
#  * Redistributions in binary form must reproduce the above copyright
#    notice, this list of conditions and the following disclaimer in
#    the documentation and/or other materials provided with the
#    distribution.
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#    contributors may be used to endorse or promote products
#    derived from this software without specific prior written
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# ----------------------------------------------------------------------------

"""Extensible attributed text format for representing pyglet formatted
documents.
"""

from functools import reduce
import operator
import parser
import re
import token
import parser
import operator

from functools import reduce

import pyglet

_pattern = re.compile(r"""
    (?P<escape_hex>\{\#x(?P<escape_hex_val>[0-9a-fA-F]+)\})
  | (?P<escape_dec>\{\#(?P<escape_dec_val>[0-9]+)\})
  | (?P<escape_lbrace>\{\{)
  | (?P<escape_rbrace>\}\})
  | (?P<attr>\{
        (?P<attr_name>[^ \{\}]+)\s+
        (?P<attr_val>[^\}]+)\})
  | (?P<nl_hard1>\n(?=[ \t]))
  | (?P<nl_hard2>\{\}\n)
  | (?P<nl_soft>\n(?=\S))
  | (?P<nl_para>\n\n+)
  | (?P<text>[^\{\}\n]+)
    """, re.VERBOSE | re.DOTALL)


class AttributedTextDecoder(pyglet.text.DocumentDecoder):
    def decode(self, text, location=None):
        self.doc = pyglet.text.document.FormattedDocument()

        self.length = 0
        self.attributes = {}
        next_trailing_space = True
        trailing_newline = True

        for m in _pattern.finditer(text):
            group = m.lastgroup
            trailing_space = True
            if group == 'text':
                t = m.group('text')
                self.append(t)
                trailing_space = t.endswith(' ')
                trailing_newline = False
            elif group == 'nl_soft':
                if not next_trailing_space:
                    self.append(' ')
                trailing_newline = False
            elif group in ('nl_hard1', 'nl_hard2'):
                self.append('\n')
                trailing_newline = True
            elif group == 'nl_para':
                self.append(m.group('nl_para')[1:])  # ignore the first \n
                trailing_newline = True
            elif group == 'attr':
                try:
                    ast = parser.expr(m.group('attr_val'))
                    if self.safe(ast):
                        val = eval(ast.compile())
                    else:
                        val = None
                except (parser.ParserError, SyntaxError):
                    val = None
                name = m.group('attr_name')
                if name[0] == '.':
                    if trailing_newline:
                        self.attributes[name[1:]] = val
                    else:
                        self.doc.set_paragraph_style(self.length, self.length, {name[1:]: val})
                else:
                    self.attributes[name] = val
            elif group == 'escape_dec':
                self.append(chr(int(m.group('escape_dec_val'))))
            elif group == 'escape_hex':
                self.append(chr(int(m.group('escape_hex_val'), 16)))
            elif group == 'escape_lbrace':
                self.append('{')
            elif group == 'escape_rbrace':
                self.append('}')
            next_trailing_space = trailing_space

        return self.doc

    def append(self, text):
        self.doc.insert_text(self.length, text, self.attributes)
        self.length += len(text)
        self.attributes.clear()

    _safe_names = ('True', 'False', 'None')

    def safe(self, ast):
        tree = ast.totuple()
        return self.safe_node(tree)

    def safe_node(self, node):
        if token.ISNONTERMINAL(node[0]):
            return reduce(operator.and_, map(self.safe_node, node[1:]))
        elif node[0] == token.NAME:
            return node[1] in self._safe_names
        else:
            return True
